W. H. Christie scite author profile

The properties of boron-implanted silicon annealed by high-power Q-switched ruby laser radiation are compared with results obtained by conventional thermal annealing. Laser annealing of the implanted layer results in significantly increased electrical activity, as compared to thermally annealed implanted silicon. This correlates well with transmission electron microscopy and ion-channeling measurements which show a dramatic removal of displacement damage as a result of laser annealing. A substantial redistribution of the implanted boron concentration profile occurs after laser annealing which cannot be explained by thermal diffusion in the solid.

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p-n junction formation in boron-deposited silicon by laser-induced diffusion

Narayan

Young

Wood

et al. 1978

121

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A technique for p-n junction formation in silicon, based on deposition of boron on silicon at room temperature followed by laser irradiation is described. Transmission electron microscopy and electrical measurements indicate that as a result of the laser irradiation the boron is dissolved in the silicon and becomes electrically active. Diode characteristics of p-n junctions produced by this technique are quite good. The dopant profile distribution has been obtained using secondary ion mass spectrometry and is in qualitative agreement with simplified theoretical calculations.

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A comparison of a theoretical model and sensitivity factor calculations for quantification of sims data

Smith

Christie

1978

International Journal of Mass Spectrometry and Ion Physics

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W. H. Christie

The resin bead as a thermal ion source: A sims study

Investigation of matrix effects on the neutral fractions ejected from ion-bombarded, uranium-containing solids using resonance ionization mass spectrometry

Laser annealing of boron-implanted silicon

p-n junction formation in boron-deposited silicon by laser-induced diffusion

A comparison of a theoretical model and sensitivity factor calculations for quantification of sims data

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